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Knowledge compression: model distillation and model pruning

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Release: 2024-01-23 10:15:20
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Knowledge compression: model distillation and model pruning

Model distillation and pruning are neural network model compression technologies that effectively reduce parameters and computational complexity, and improve operating efficiency and performance. Model distillation improves performance by training a smaller model on a larger model, transferring knowledge. Pruning reduces model size by removing redundant connections and parameters. These two techniques are very useful for model compression and optimization.

Model Distillation

Model distillation is a technique that replicates the predictive power of a large model by training a smaller model. The large model is called the "teacher model" and the small model is called the "student model". Teacher models typically have more parameters and complexity and are therefore better able to fit the training and test data. In model distillation, the student model is trained to imitate the predictive behavior of the teacher model to achieve similar performance at a smaller model volume. In this way, model distillation can reduce the model volume while maintaining the model's predictive power.

Specifically, model distillation is achieved through the following steps:

When training the teacher model, we usually use conventional methods such as backpropagation and stochastic gradient descent to train a large deep neural network model and ensure that it performs well on the training data.

2. Generate soft labels: Use the teacher model to predict the training data and use its output as soft labels. The concept of soft labels is developed based on traditional hard labels (one-hot encoding). It can provide more continuous information and better describe the relationship between different categories.

3. Train the student model: Use soft labels as the objective function to train a small deep neural network model so that it performs well on the training data. At this time, the input and output of the student model are the same as the teacher model, but the model parameters and structure are more simplified and streamlined.

The advantage of model distillation is that it allows small models to have lower computational complexity and storage space requirements while maintaining performance. In addition, using soft labels can provide more continuous information, allowing the student model to better learn the relationships between different categories. Model distillation has been widely used in various application fields, such as natural language processing, computer vision, and speech recognition.

Model Pruning

Model pruning is a technique that compresses neural network models by removing unnecessary neurons and connections. Neural network models usually have a large number of parameters and redundant connections. These parameters and connections may not have much impact on the performance of the model, but will greatly increase the computational complexity and storage space requirements of the model. Model pruning can reduce model size and computational complexity by removing these useless parameters and connections while maintaining model performance.

The specific steps of model pruning are as follows:

1. Train the original model: use conventional training methods, such as backpropagation and randomization Gradient descent trains a large deep neural network model to perform well on training data.

2. Evaluate neuron importance: Use some methods (such as L1 regularization, Hessian matrix, Taylor expansion, etc.) to evaluate the importance of each neuron, that is, to the final output Contribution to the results. Neurons with low importance can be considered as useless neurons.

3. Remove useless neurons and connections: Remove useless neurons and connections based on the importance of the neurons. This can be achieved by setting their weights to zero or deleting the corresponding neurons and connections.

The advantage of model pruning is that it can effectively reduce the size and computational complexity of the model, thereby improving model performance. In addition, model pruning can help reduce overfitting and improve the generalization ability of the model. Model pruning has also been widely used in various application fields, such as natural language processing, computer vision, and speech recognition.

Finally, although model distillation and model pruning are both neural network model compression techniques, their implementation methods and purposes are slightly different. Model distillation focuses more on using the predicted behavior of the teacher model to train the student model, while model pruning focuses more on removing useless parameters and connections to compress the model.

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source:163.com
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